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Management of nitrogen from underseeded clover and manures in spring wheatGarand, Marie-Josée. January 1999 (has links)
No description available.
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Deep soil nitrogen survey, Lower Umatilla Basin, Oregondel Nero, Zachary Augustus 14 July 1994 (has links)
Soils of 49 agricultural and 2 "native condition" sites in the Lower Umatilla Basin,
Oregon were sampled for nitrate-nitrogen, ammonium-nitrogen, chloride, and pH
beginning in Fall of 1992. Several sites were sampled in Spring and Fall 1993 in order to
indicate movement or loss of residual soil nitrogen over time. This study was prompted
by current concern over contamination of public drinking water supplies by nitrate and the
designation of over 550 square miles of this region as a Ground Water Management Area.
This study sought to identify links between agricultural management practices-primarily
irrigation, fertilization, and crop rotation systems, and deep soil nitrate levels.
Soil profiles were divided into 3 "management zones:" 0-3', 3-6', and beyond 6' in depth.
These depths represent average rooting depths for the major agricultural crops of the
study area. In general, the effective rooting depth of most area-crops does not extend
beyond 6', therefore, it was determined that residual soil-nitrate found at this depth or
beyond may be a potential source of ground water contamination if not managed
correctly.
Results of the study indicate that proper management of irrigation, fertilization,
and cropping rotation can significantly reduce the potential for contaminating ground
water. Deep soil nitrate levels under most agricultural fields were consistent with the
concept that some loss of nitrate below the root zone is inevitable, however, this condition
can be minimized through intensive crop management.
This study concludes that responsible management of agriculture can minimize
impacts on ground water, while providing quality food and fiber products to an ever-growing
population. In addition, more research is needed in the area of crop physiology
and response to intensively managed systems. Such research may provide insight into
more efficient methods of crop production and environmental protection. / Graduation date: 1995
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Laboratory measurements of soil microbial biomass and nitrogen mineralization from two Chinese soils as influenced by long-term applications of manure and inorganic fertilizersOuimet, Nicole January 1994 (has links)
The purpose of this study was to investigate the results of two long-term fertilization experiments on soil organic C, total N, and mineralizable N in the Jiangsu Province of People's Republic of China. The soil samples that received manure over the years contained more soil organic C, and total N than the inorganic fertilized samples. Soil organic C was closely correlated with total N and there were correlations between crop yields and soil organic C contents and between crop yields and soil total N contents. Plant-available N was estimated using biological and chemical tests. Mineralized N formed under anaerobic incubation was low except for those soil samples that received manure. Microbial biomass C and N were estimated using the chloroform fumigation-incubation method (CFIM) and fumigation-extraction procedures. Biomass measurements by CFIM were more precise and reliable than values obtained by fumigation-extraction. Treatment differences in biomass were not significant. Estimates of biomass C and N were influenced by the choice of the control soil and the period of incubation used by the CFIM. Unfumigated (10-20 d) control soils were found to be the best control for samples. Extraction of mineralized N using O.5M NaHCO$ sb3$ after incubation overestimated biomass N since this extraction was found to extract non-biomass N.
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Poultry manure and inorganic fertiliser effects on soil fertility and microbial communities in wheat and corn agroecosystemsDupuis, Eartha M. January 2006 (has links)
Many producers in North America are finding it profitable to make the transition from conventional farming to organic agriculture. Organic fertilisers may affect crop production and soil quality differently than inorganic fertilisers. The objectives of this study conducted in Ste.-Anne-de-Bellevue. Quebec were to examine crop yield, grain quality, soil fertility and microbial community parameters in wheat and corn agroecosystems receiving poultry manure or inorganic fertiliser. Wheat grain yield declined and corn grain yield did not increase with higher N rates, suggesting that increased N supply did not encourage grain production. Soil analyses demonstrated high inherent soil fertility at the study site, and fertilisation led to an environmentally undesirable increase in residual soil NO3 concentrations. Microbial biomass and respiration in corn agroecosystems were greater with poultry manure amendments than inorganic fertiliser, but not in wheat agroecosystems due to significant variation among field replicates. Phospholipid fatty acid analysis revealed significant differences between wheat and corn soil microbial community composition, but differences due to fertilisation were less evident. Further work is needed to uncover the relationships among N fertilisation, crop nutrition and soil microbiology in organic agroecosystems.
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Management of nitrogen from underseeded clover and manures in spring wheatGarand, Marie-Josée. January 1999 (has links)
Manure and underseeded clover are sustainable N sources for spring wheat on gleysolic soils of the St. Lawrence lowlands. Farmers rely on little information to manage adequately, these alternatives to fertilizer N. This study documents in spring wheat red (Triticum aestivum L. cv Algot) (i) the agronomic value of (Trifolium pratense L. cv Arlington); (ii) the impacts of application time and underseeded clover an manure N recovery; (iii) the residual NO3-- in the soil profile that constitutes a potential risk of N transfer from soil to air and water associated to clover alone or combined with manures and, (iv) the use of a plant N availability index. A four year field experiment was established an a St. Urbain clay (Orthic Humic Gleysol) at St. Bruno de Montarville (45°33'N; 73°21'W) in 1993. Ammonium nitrate at 0 to 160 kg N ha--1, swine liquid manure (SLM) and dairy solid manure (DSM) were used either alone or in combination with clover ploughed down in fall as green manure. Manures were applied at pre-seeding, in post-emergence or after harvest. The impact of clover on wheat yield was related solely to an improved N nutrition. Clover supplied fertilizer N equivalents of approximately 30 kg ha --1 to the succeeding wheat crop. Clover combined with manures increased available N in the soil profile so that estimated recovery of manures N was strongly reduced in 1995. Apparent N recovery of SLM was higher than for DSM with values of 5% and 17% in 1994 and 1995 compared to 2 and 4% for DSM. Application time did not significantly affect manure N recovery. Limited risk of N transfer to water and air was associated with post-harvest manure application and underseeded red clover because those practices increased soil profile NO3-- in fall and the end of April. Fluxes of N estimated by NH4+ and NO3 -- sorbed in situ on ionic exchange membranes (IEMs) provided better monitoring of N released by added organic N sources than N extracted by 2M KCl and also were bette
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The effect of soluble organic carbon substrates, and environmental modulators on soil microbial function and diversityHoyle, Frances Carmen January 2007 (has links)
[Truncated abstract] The principal aim of this thesis was to examine the response of the microbial community to the addition of small amounts (<50 μg C g-1 soil) of organic C substrates (‘trigger molecules’) to soil. This addition is comparative to indigenous soluble C concentrations for a range of soil types in Western Australia (typically measured between 20 and 55 μg C g-1 soil). Previously it has been reported that the application of trigger molecules to European soils has caused more CO2-C to be evolved (up to six fold) than was applied . . . Findings from this study indicated that there was an additional CO2 release (i.e. greater than the C added) on application of organic C substrates to some soil treatments. However, findings from this study indicate that the response of the microbial community to small additions of soluble C substrate is not consistent for all soil types and may vary due to greater availability of C, and supports the premise that microbial responses vary in a yet to be predicted manner between soil type and ecosystems. Differences in microbial response to the addition of soluble organic C are likely attributable to differences in soil attributes and environmental factors influencing both the diversity of microbes present and the frequency of food events. Theoretically, trigger molecules could also provide a possible control mechanism for microorganisms in arable farming systems. These mechanisms include stimulating either targeted pathogenic microorganisms that starve after depletion of a suitable substrate; or stimulating beneficial microorganisms to manipulate nutrient cycling, by targeting specific functional groups and altering mineralisation and immobilisation turnover rates.
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Laboratory measurements of soil microbial biomass and nitrogen mineralization from two Chinese soils as influenced by long-term applications of manure and inorganic fertilizersOuimet, Nicole January 1994 (has links)
No description available.
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Poultry manure and inorganic fertiliser effects on soil fertility and microbial communities in wheat and corn agroecosystemsDupuis, Eartha M. January 2006 (has links)
No description available.
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Soil nitrogen dynamics and spring wheat (Triticum aestivum) production in different cropping systems in the SwartlandWessels, Pieter Gerhardus Wilhelmus 03 1900 (has links)
Thesis (MScAgric)--University of Stellenbosch, 2001. / ENGLISH ABSTRACT: Protein and oilseed production in the winter rainfall region of South Africa
(primarily the Southern and Western Cape) is well below the potential for
the area. One possible method of increasing production is to convince
producers that the inclusion of protein and oilseed rotational crops will
enhance the sustainability of wheat production systems. A project to
investigate, quantify and elucidate the effect of canola (Brassica napus),
lupins (Lupinus angustifolius) and medics (Medicago spp.) on subsequent
wheat (Triticum aestivum) production as well as their influence on soil
fertility in respect to nitrogen was initiated in 1999. The long- term
rotational crop system experiment on Langgewens experimental farm
near Malmesbury, provided the infrastructure for the project.
During the 1999 and 2000 wheat-growing seasons, 50m2 plots were
demarcated in wheat fields where wheat, lupins, canola or medics were
produced in 1998 and 1999 respectively. Each plot was cleared of all
vegetation and received no fertilizer N. In these fallow plots, soil samples
were collected at three to four week intervals and the available nitrate-N
and ammonium-N content of the topsoil (0-15cm depth) and the subsoil
(15-30cm depth) were determined.
Additional soil samples were also taken from the topsoil on 09/03/2000
after a summer fallow period. These samples were taken on plots that
were subjected to a wheat crop in 1999, but were preceded by either
wheat, canola, lupins or medics in 1998. The soil samples were then
subjected to a 60-day incubation period at 15°C while being maintained at
75% of their water holding capacity. Mineral N was determined after 0, 3,
7, 15, 30, 45 and 60 days of incubation. Large variation in the nitrogen
contents observed made it difficult to always obtain significant
differences. The results of the soil investigations however indicate that
the inclusion of lupins and medics in wheat cropping systems in the Swartland could help to limit the decline of mineral N in the soil profile,
experienced within a growing season. This will therefore enable farmers
to reduce fertilizer inputs without facing soil mineral N depletion.
Plant samples were also collected from wheat plots during the 1999
growing season on three occasions (23/06/99 (growth stage 5), 5/08/99
(growth stage 15), 14/09/99 (growth stage 23)). Plots were selected to
represent the same treatments as in the soil sampling procedure during
the growing season of 1999 as described above. Plant and tiller numbers
of a 0.25m2 sub sample from each plot were counted and leaf area was
determined, whereafter the dry material was weighed. The percentage
nitrogen content in the leaves and stems were subsequently determined
using Near Infra-Red Spectroscopy. In terms of vegetative growth, little
difference was observed. A significant increase in nitrogen content of
wheat plants growing in plots where wheat and canala were grown in
1998 was observed in the second plant sampling (growth stage 15) and
this was attributed to higher nitrogen topdressing. However, on the third
sampling date on 14/9/1999 (growth stage 23), the difference was no
longer evident. The most important conclusion to make from this study, is
that farmers can probably save on fertilizer inputs when including lupins
and medics in their wheat production systems, without risking poorer
wheat growth.
At growth stage 28, a 0.25m2 sub sample of wheat plants was removed at
a randomly chosen point in each of the plots described above. Ears and
grains were subsequently counted. The wheat remaining on the plots
were then harvested at the end of October 1999 using a plot combine.
Subsequently the yield, hectolitre mass, thousand grain mass and %
crude protein was determined from samples of harvested grain from each
plot. The % flour and % bran extraction were then determined whereafter
the % flour protein was determined. Micro bread loafs were baked to
estimate the loaf volume. Flour and dough properties were also tested
using the Falling Number System, mixograph and alveograph. Wheat in
cropping systems consisting of legume phases such as lupins and medics, required less nitrogen fertilizer application to achieve statistically
the same yield, flour and dough properties. These crop rotations can
therefore be considered as more ecologically sustainable and
economically viable for the Swartland. This study was aimed at determining the effect of different crop rotations
on soil fertility, and because clear soil fertility trends take time to form,
this study was probably too short to obtain fully significant differences. / AFRIKAANSE OPSOMMING: Proteïen- en oliesaad produksie in die winter reënval streek van Suid
Afrika (hoofsaaklik die Suid- en Weskaap) is ver benede die potensiaal vir
die streek. Een moontlike manier om die produksie hiervan te verhoog is
om produsente in hierdie streek te oortuig dat die insluiting van proteten
en oliesaad gewasse die volhoubaarheid van koring verbouingstelsels sal
verhoog. Na aanleiding hiervan, is In projek in 1999 van stapel gestuur
om die effek van canola (Brassica napus), lupiene (Lupinus angustifolius)
en medies (Medicago spp.) op daaropvolgende koring (Triticum aestivum)
produksie, asook die invloed daarvan op grondvrugbaarheid in terme van
stikstofinhoud, te ondersoek. Die langtermyn wisselbouproef op
Langgewens proefplaas naby Malmesbury, het as infrastruktuur vir die
ondersoek gedien.
Gedurende die 1999 en 2000 koring groeiseisoene is 50m2 plotte in
koringkampe gekies waarop koring, canola, lupiene en medies
geproduseer is in onderskeidelik 1998 en 1999. Hierdie plotte is skoon
gehou van plantegroei en het ook geen stikstof in kunsmisvorm gekry nie.
Met drie tot vier week intervalle is grondmonsters op hierdie plotte
versamel in die bogrond (0-15cm diep) en ondergrond (15-30cm diep),
waarna die beskikbare nitraat-N en ammonium-N konsentrasie bepaal is.
Adissionele grondmonsters van die bogrond is ook geneem op 9/03/2000
na In somer braak periode. Hierdie monsters was geneem op persele wat
blootgestel was aan In koringproduksie in 1999, maar voorafgegaan is
deur koring, canola, lupiene en medies in 1998. Hierdie monsters is dan
vir 60 dae geïnkubeer teen 15°C en 75% van die grond se water
houvermoeë. Minerale N inhoud bepalings is gedoen na 0, 3, 7, 15, 30,
45 en 60 dae van inkubasie. Groot variasie in die minerale stikstof
inhoud, het die verkryging van herkenbare tendense en konstante
statistiese verskille belemmer. Die resultate wat verkry is dui egter dat
die insluiting van lupiene en medies in koring produksie stelsels in die Swartland, hoër minerale N vlakke in die grond handhaaf en dit kan boere
gevolglik in staat stelom kunsmis insette te besnoei sonder dat
grondvrugbaarheid verswak.
Op 23/06/99 (groeistadium 5), 5/08/99 (groeistadium 15) en 14/09/99
(groeistadium 23) is plantmonsters versamel van koringpersele. Hierdie
persele is gekies om die behandelings van die grondmonsterontledings
soos hierbo beskryf, te verteenwoordig. Plante en halms van 'n 0.25m2
area uit die persele is getel en die blaaroppervlaktes is bepaal, waarna
die droëmateriaal massa van die area bepaal is. Die persentasie
stikstofinhoud van die blare en stingels was daarna bepaal. In terme van
vegetatiewe groei was daar nie groot verskille te bespeur nie.
Betekenisvolle hoër stikstof inhoud van koringblare in plotte waar daar in
die vorige jaar canola en koring verbou was, is in die tweede planttrekking
(groeistadium 15) gevind en dit is toegeskryf aan die hoër stikstof
kopbemesting wat daardie behandelings ontvang het. Teen die derde
monsterneming op 14/09l99 (groeistadium 23), was hierdie verskille nie
meer in die ontledingsdata te sien nie. Die afleiding wat van hierdie
studie gemaak is, is dat boere moontlik stikstofbemesting kan verminder
as hulle lupiene en medies in hulle koring produksiestelsels inbring,
sonder om die risiko van swakker groei te verhoog.
Op 20/10/99 (groeistadium 28) is 0.25m2 plante van elke koringperseel
verwyder waarna die are en die korrels getel is. Die koring wat nog op
die persele was is teen die einde van Oktober 1999 met 'n
perseelstropertjie geoes. Opbrengs, hektoliter massa, duidendkorrel
massa en % ru-proteïene is daarna bepaal. Volgende is die % meel en %
semel ekstraksie bepaal waarna die % meelproteïene bepaal is. Mikro
broodjies is ook gebak om die broodvolume te bepaal. Meel en deeg
eienskappe is ook getoets met die Falling Number System, mixogram en
alveogram. Koring in produksiestelsels met peulplant fases (lupien en
medies in hierdie geval), het minder N toediening nodig gehad om
statisties dieselfde opbrengs, meel- en deeg eienskappe te verkry. Lupien en medic gebaseerde wisselbou praktyke in die Swartland kan
gevolglik as meer ekologies volhoubaar en ekonomies haalbaar
bestempelword.
Hierdie studie het gepoog om die invloed van wisselbou op
grondvrugbaarheid te ondersoek. Sodanige veranderings neem egter tyd
en daarom is dit waarskynlik nog te gou om werklike grondvrugbaarheids
verskille waar te neem.
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Impact of long-term manure application on soil macronutrient levels in Southern AlbertaSimpson, Lisa G January 2010 (has links)
The role of manure applications on soil nutrient dynamics in years after manure applications cease has not been extensively studied. An investigation of two long-term manure trials in the Battersea Drain watershed in southern Alberta was undertaken in 2004 to determine changes in soil nutrient status three years after the initial study was completed. The investigation of the nutrient status of an intensive livestock operation was another component of the study. There was a significant decrease in levels of soil nitrogen, phosphorus and potassium in the plots that received manure application rates over 60 Mg ha-1. The nutrient status of the farm showed a net export of nitrogen and an accumulation of phosphorus and potassium in the soil. Recommendations for alternate methods for handling manure were presented. / x, 120 leaves : ill (some col.), col. maps ; 29 cm
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